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Progress of COSMOS (CO2 sending method for ocean storage) and OACE (Ocean abyssal carbon experiment)

Academic lecture
Year of publication
2003
External websites
Cristin
Contributors
Izuo Aya, Sadahiro Namie, Kenji Yamane, Ryuji Kojima, Yasuhara Nakajima, Hideyuki Shirota, Peter G. Brewer, Edward T. Peltzer, III, Peter M. Haugan, Truls Johannessen, B. Kvamme, Richard Bellerby

Summary

The storage of liquid CO2 at an ocean floor, one of promising measures to mitigate the global warming, requires 3500 m depth for the gravitationally stable storage, a breakthrough technology and a reasonable cost to realize, although it has large advantages such as the sequestration term longer than 2000 years. However CO2 can be sent to the ocean floor by shallow release, if we can use the nature that the cold CO2 to be shipped by a CO2 carrier is much denser than the ambient seawater even at shallow depths. The National Maritime Research Institute (NMRI) conducted several joint field CO2 release experiments with the Monterey Bay Aquarium Research Institute (MBARI, USA) since 1999 under the auspice of the NEDO, and proposed the improved COSMOS, CO2 Sending Method for Ocean Storage, in which CO2 is released into 200 m depth as slurry masses (mixture of dry ice and cold liquid CO2). Since 2002, under the NEDO Grant, the NMRI started a new international joint research, OACE, Ocean Abyssal Carbon Experiment with the MBARI and the University of Bergen (UoB, Norway), in order to accumulate the basic data on the long-term stability of stored CO2 and its environmental effects around storage site.